Rafath Chowdhury scite author profile

Ascidians with very similar embryos but highly divergent genomes are thought to have undergone extensive developmental system drift. We compared, in four species (Ciona and Phallusia for Phlebobranchia, Molgula and Halocynthia for Stolidobranchia), gene expression and gene regulation for a network of six transcription factors regulating peripheral nervous system (PNS) formation in Ciona. All genes, but one in Molgula, were expressed in the PNS with some differences correlating with phylogenetic distance. Cross-species transgenesis indicated strong levels of conservation, except in Molgula, in gene regulation despite lack of sequence conservation of the enhancers. Developmental system drift in ascidians is thus higher for gene regulation than for gene expression and is impacted not only by phylogenetic distance, but also in a clade-specific manner and unevenly within a network. Finally, considering that Molgula is divergent in our analyses, this suggests deep conservation of developmental mechanisms in ascidians after 390 My of separate evolution.

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Regulation of anterior neurectoderm specification and differentiation by BMP signaling in ascidians

Roure

Chowdhury

Darras

2023

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The most anterior structure of the ascidian larva is made of three palps with sensory and adhesive functions essential for metamorphosis. They derive from the anterior neural border and their formation is regulated by FGF and Wnt. Since they also share gene expression profiles with vertebrate anterior neural tissue and cranial placodes, their study should shed light on the emergence of the unique vertebrate telencephalon. We show that BMP signaling regulates two phases of palp formation in Ciona intestinalis. During gastrulation, the anterior neural border is specified in a domain of inactive BMP signaling, and activating BMP prevented its formation. During neurulation, BMP defines ventral palp identity and indirectly specifies the inter-papilla territory separating the ventral and dorsal palps. Finally, we showed that BMP has similar functions in the ascidian Phallusia mammillata for which we identified novel palp markers. Collectively, we provide a better molecular description of palp formation in ascidians that will be instrumental for comparative studies.

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Highly distinct genetic programs for peripheral nervous system formation in chordates

et al. 2022

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Background Vertebrates develop their peripheral nervous system (PNS) from transient unique embryonic structures, the neural crest, and the ectodermal placodes that are located at the border of the forming central nervous system. By contrast, in the invertebrate chordates, amphioxus and ascidians, a large part of the PNS originates at the opposite of the embryo, in the ventral ectoderm. In both groups, a biphasic mechanism regulates ventral PNS formation: high BMP levels specify a neurogenic territory within which glutamatergic epidermal sensory neuron formation is controlled by the Notch pathway. Given these similarities and the phylogenetic relationships within chordates, it is likely that ventral PNS is an ancestral feature in chordates and that it has been lost in vertebrates. Results In order to get insights into the molecular control of ventral PNS formation and to test the hypothesis of their homology and potential contribution to the emergence of vertebrate PNS, we undertook a close comparison of ventral PNS formation in the ascidian Phallusia mammillata and the amphioxus Branchiostoma lanceolatum. Using timed RNA-seq series, we identified novel markers of the ventral PNS during different phases of its development in both species. By extensively determining the expression of paralogous and orthologous genes, we observed that only a minority of genes have a shared expression in the ventral PNS. However, a large fraction of ventral PNS orthologous genes are expressed in the dorsally forming PNS of vertebrates. Conclusions Our work has significantly increased the molecular characterization of ventral PNS formation in invertebrate chordates. The low observed conservation of gene expression in the ventral PNS suggests that the amphioxus and ascidian ventral PNS are either not homologous, or alternatively extensive drift has occurred in their regulatory mechanisms following a long period (600 My) of separate evolution and accelerated evolution in the ascidian lineage. The homology to genes expressed in the dorsally forming PNS of vertebrates suggests that ancestral sensory neurons gene networks have been redeployed in vertebrates.

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Regulation of anterior neurectoderm specification and differentiation by BMP signaling in ascidians

Roure

Chowdhury

Darras

2022

Preprint

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Three palps make the most anterior structure of the ascidian larva. These ectodermal derivatives have both a sensory and adhesive functions essential for metamorphosis. They derive from the anterior neural border and their formation is regulated by signaling pathways such as FGF and Wnt. Since they also share gene expression profiles with vertebrate anterior neural tissue and cranial placodes, their study should shed light on the emergence of the unique vertebrate telencephalon. Here, we show that BMP signaling regulates two phases of palps formation in Ciona intestinalis. During gastrula stages, the anterior neural border marked by Foxc is specified in a domain of inactive BMP signaling, and activating BMP prevented its formation. Later on, inhibiting BMP led to the formation of a single large palp, most likely of dorsal identity. Our results indicate that BMP signaling regulates papilla vs inter-papilla fate decision within the palps forming region. Finally, we showed that modulating BMP signaling led to similar palps phenotypes in another ascidian species Phallusia mammillata. This led us to screen transcriptomic data and identify novel palps markers. Collectively, we provide a better molecular description of palps formation in ascidians that will be instrumental for comparative studies within ascidians and between ascidians and other chordates.

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Author Reply to Peer Reviews of Regulation of anterior neurectoderm specification and differentiation by BMP signaling in ascidians

Roure

Chowdhury

Darras

2022

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